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Improving prediction of tacrolimus concentration using a combination of population pharmacokinetic modeling and machine learning in chinese renal transplant recipients

Yuping Wang, Xiaoling Lu, Kun Shao, Hao‐Qiang Shi, Peijun Zhou, Bing Chen

2024Frontiers in Pharmacology12 citationsDOIOpen Access PDF

Abstract

Aims: The population pharmacokinetic (PPK) model-based machine learning (ML) approach offers a novel perspective on individual concentration prediction. This study aimed to establish a PPK-based ML model for predicting tacrolimus (TAC) concentrations in Chinese renal transplant recipients. Methods: Conventional TAC monitoring data from 127 Chinese renal transplant patients were divided into training (80%) and testing (20%) datasets. A PPK model was developed using the training group data. ML models were then established based on individual pharmacokinetic data derived from the PPK basic model. The prediction performances of the PPK-based ML model and Bayesian forecasting approach were compared using data from the test group. Results: genotype, and hematocrit showed improved rankings in ML model construction. XGBoost, based on the TAC PPK, exhibited the best prediction performance. Conclusion: The PPK-based machine learning approach emerges as a superior option for predicting TAC concentrations in Chinese renal transplant recipients.

Topics & Concepts

TacrolimusRenal transplantPharmacokineticsMedicinePharmacologyPopulationInternal medicineTransplantationEnvironmental healthRenal Transplantation Outcomes and TreatmentsOrgan Donation and TransplantationOrgan Transplantation Techniques and Outcomes
Improving prediction of tacrolimus concentration using a combination of population pharmacokinetic modeling and machine learning in chinese renal transplant recipients | Litcius